Beaucournu J.C., Chastel O. (1992). Variations morphologiques chez Notiopsylla kerguelensis (Taschenberg, 1880) (Siphonaptera, Pygiopsyllidae). Bulletin de la societe francaise de parasitologie, 10(2), 265–268.
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Maurette M., Engrand C. & Kurat G. (1996). Collection and Microanalysis of Antarctic Micrometeorites. (Vol. 104).
Abstract: Physics. Chemistry, and Dynamics of Interplanetary Dust, ASP Conference Series
Programme: 226
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Lefebvre E., Augustin L. & Maitre M. (2002). the EPICA borehole logger. Mem. national inst. polar res. spec. issue, 56, 264–274.
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Lorius C. & Jouzel J. (1996). European project for ice coring in Antarctica (Epica)..
Abstract: The Ocean and The Poles: Grand Challenges for European Cooperation, Edited by Gotthilf Hempel, Gustav Fisher Verlag, 1996
Programme: 960
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Bonsang B., Kanakidou M. & Boissard C. (1994). Contribution of Tropical biomass burning to the global budget of hydrocarbons, carbon monoxide and tropospheric ozone..
Abstract: Non-CO2 Greenhouse Gases, Kluwer Academic Press
Programme: 146
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. (1995).
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Dubouloz N., Bouhram M., Senior C., Delcourt D. & Malingre M. (2001). Spatial structure of the cusp/cleft ion fountain: a case study using a magnetic conjugacy between Interball AP and a pair of SuperDARN radars. J. Geophys. Res., 106(a1), 261–274.
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Mengesha S., Dehairs F., Fiala M., Elskens M. & Goeyens L. (1998). Seasonal variation of phytoplankton community structure and nitrogen uptake regime in the Indian sector of the southern ocean. Polar Biol., 20(4), 259–272.
Abstract: This study investigates the dynamics of phytoplankton communities and nitrogen uptake in the Indian sector of the Southern Ocean during spring and summer. The study area is oligotrophic (Chl a stocks < 50 mg m-2); nevertheless, a large spatial variation of phytoplankton biomass and community structure was observed. During both seasons the phytoplankton community in the seasonal ice zone showed higher biomasses and was mainly composed of large diatom cells. However, in the permanently open ocean zone the community had low biomass and was chiefly composed of nano- and picoflagellates. In the polar front zone, although biomass was higher, the community structure was similar to the open ocean zone. The results suggest that the variation in phytoplankton community structure on a larger scale resonates with gradients in water column stability and nutrient distribution. However, significant changes in biomass and nutrient stocks but little change in community structure were observed. Absolute nitrogen uptake rates were generally low, but their seasonal variations were highly significant. During spring the communities displayed high specific nitrate uptake (mean rate = 0.0048 h-1). and diatoms (in the seasonal ice zone) as well as nano- and picoflagellates (in the permanently open ocean zone and polar front zone) were mainly based on new production (mean f-ratio = 0.69). The transition to summer was accompanied by a significant reduction in nitrate uptake rate (0.0048 h-1 ? 0.0011 h-1) and a shift from predominantly new to regenerated production (f-ratio 0.69 ? 0.39). Ammonium played a major role in the seasonal dynamics of phytoplankton nutrition. The results emphasize that, despite a large contrast in community structure, the seasonal dynamics of the nitrogen uptake regime and phytoplankton community structure in all three subsystems were similar. Additionally, this study supports our previous conclusion that the seasonal shift in nitrogen uptake regime can occur with, as well as without, marked changes in community structure.
Keywords: Seasonal variation ; Phytoplankton ; Biomass ; Plant community ; Nitrogen cycle ; Absorption ; Southern Ocean ; Indian Ocean ; Algae ; Community structure ; Marine environment ; Thallophyta
Programme: 193
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Bargelloni L. & Lecointre G. (1998). Four years in Notothenioid systematics: a molecular perspective. Fishes of Antarctica. A Biological Overview, , 259–273.
Abstract: In G. di Prisco E. Pisano & A. Clarke (Eds). Fishes of Antarctica. A Biological Overview. Springer-Verlag Milano
Programme: 281
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Bargelloni L., Zanel L., Derome N., Lecointre G. & Patarnello T. (2000). Molecular zoogeography of antarctic euphausiids and notothenioids : from species phylogenies to intraspecific patterns of genetic variation. Antarct. Sci., 12(3), 259–268.
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